Transformation Functions ======================== Some data types are implemented in a different enough way that a transformation function is necessary. This function must be written in `Common lisp` and is searched in the `pgloader.transforms` package. Some default transformation function are provided with pgloader, and you can use the `--load` command line option to load and compile your own lisp file into pgloader at runtime. For your functions to be found, remember to begin your lisp file with the following form:: (in-package #:pgloader.transforms) The provided transformation functions are: - *zero-dates-to-null* When the input date is all zeroes, return `nil`, which gets loaded as a PostgreSQL `NULL` value. - *date-with-no-separator* Applies *zero-dates-to-null* then transform the given date into a format that PostgreSQL will actually process:: In: "20041002152952" Out: "2004-10-02 15:29:52" - *time-with-no-separator* Transform the given time into a format that PostgreSQL will actually process:: In: "08231560" Out: "08:23:15.60" - *tinyint-to-boolean* As MySQL lacks a proper boolean type, *tinyint* is often used to implement that. This function transforms `0` to `'false'` and anything else to `'true`'. - *bits-to-boolean* As MySQL lacks a proper boolean type, *BIT* is often used to implement that. This function transforms 1-bit bit vectors from `0` to `f` and any other value to `t`.. - *int-to-ip* Convert an integer into a dotted representation of an ip4. :: In: 18435761 Out: "1.25.78.177" - *ip-range* Converts a couple of integers given as strings into a range of ip4. :: In: "16825344" "16825599" Out: "1.0.188.0-1.0.188.255" - *convert-mysql-point* Converts from the `astext` representation of points in MySQL to the PostgreSQL representation. :: In: "POINT(48.5513589 7.6926827)" Out: "(48.5513589,7.6926827)" - *integer-to-string* Converts a integer string or a Common Lisp integer into a string suitable for a PostgreSQL integer. Takes care of quoted integers. :: In: "\"0\"" Out: "0" - *float-to-string* Converts a Common Lisp float into a string suitable for a PostgreSQL float:: In: 100.0d0 Out: "100.0" - *hex-to-dec* Converts a string containing an hexadecimal representation of a number into its decimal representation:: In: "deadbeef" Out: "3735928559" - *set-to-enum-array* Converts a string representing a MySQL SET into a PostgreSQL Array of Enum values from the set. :: In: "foo,bar" Out: "{foo,bar}" - *empty-string-to-null* Convert an empty string to a null. - *right-trim* Remove whitespace at end of string. - *remove-null-characters* Remove `NUL` characters (`0x0`) from given strings. - *byte-vector-to-bytea* Transform a simple array of unsigned bytes to the PostgreSQL bytea Hex Format representation as documented at http://www.postgresql.org/docs/9.3/interactive/datatype-binary.html - *sqlite-timestamp-to-timestamp* SQLite type system is quite interesting, so cope with it here to produce timestamp literals as expected by PostgreSQL. That covers year only on 4 digits, 0 dates to null, and proper date strings. - *sql-server-uniqueidentifier-to-uuid* The SQL Server driver receives data fo type uniqueidentifier as byte vector that we then need to convert to an UUID string for PostgreSQL COPY input format to process. - *unix-timestamp-to-timestamptz* Converts a unix timestamp (number of seconds elapsed since beginning of 1970) into a proper PostgreSQL timestamp format. - *varbinary-to-string* Converts binary encoded string (such as a MySQL `varbinary` entry) to a decoded text, using the table's encoding that may be overloaded with the *DECODING TABLE NAMES MATCHING* clause.